/* ******************************************************************************* * Copyright (C) 2010-2011, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* * file name: bytestrie.cpp * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 2010sep25 * created by: Markus W. Scherer */ #include "unicode/utypes.h" #include "unicode/bytestream.h" #include "unicode/bytestrie.h" #include "unicode/uobject.h" #include "cmemory.h" #include "uassert.h" U_NAMESPACE_BEGIN BytesTrie::~BytesTrie() { uprv_free(ownedArray_); } // lead byte already shifted right by 1. int32_t BytesTrie::readValue(const uint8_t *pos, int32_t leadByte) { int32_t value; if(leadByte<kMinTwoByteValueLead) { value=leadByte-kMinOneByteValueLead; } else if(leadByte<kMinThreeByteValueLead) { value=((leadByte-kMinTwoByteValueLead)<<8)|*pos; } else if(leadByte<kFourByteValueLead) { value=((leadByte-kMinThreeByteValueLead)<<16)|(pos[0]<<8)|pos[1]; } else if(leadByte==kFourByteValueLead) { value=(pos[0]<<16)|(pos[1]<<8)|pos[2]; } else { value=(pos[0]<<24)|(pos[1]<<16)|(pos[2]<<8)|pos[3]; } return value; } const uint8_t * BytesTrie::jumpByDelta(const uint8_t *pos) { int32_t delta=*pos++; if(delta<kMinTwoByteDeltaLead) { // nothing to do } else if(delta<kMinThreeByteDeltaLead) { delta=((delta-kMinTwoByteDeltaLead)<<8)|*pos++; } else if(delta<kFourByteDeltaLead) { delta=((delta-kMinThreeByteDeltaLead)<<16)|(pos[0]<<8)|pos[1]; pos+=2; } else if(delta==kFourByteDeltaLead) { delta=(pos[0]<<16)|(pos[1]<<8)|pos[2]; pos+=3; } else { delta=(pos[0]<<24)|(pos[1]<<16)|(pos[2]<<8)|pos[3]; pos+=4; } return pos+delta; } UStringTrieResult BytesTrie::current() const { const uint8_t *pos=pos_; if(pos==NULL) { return USTRINGTRIE_NO_MATCH; } else { int32_t node; return (remainingMatchLength_<0 && (node=*pos)>=kMinValueLead) ? valueResult(node) : USTRINGTRIE_NO_VALUE; } } UStringTrieResult BytesTrie::branchNext(const uint8_t *pos, int32_t length, int32_t inByte) { // Branch according to the current byte. if(length==0) { length=*pos++; } ++length; // The length of the branch is the number of bytes to select from. // The data structure encodes a binary search. while(length>kMaxBranchLinearSubNodeLength) { if(inByte<*pos++) { length>>=1; pos=jumpByDelta(pos); } else { length=length-(length>>1); pos=skipDelta(pos); } } // Drop down to linear search for the last few bytes. // length>=2 because the loop body above sees length>kMaxBranchLinearSubNodeLength>=3 // and divides length by 2. do { if(inByte==*pos++) { UStringTrieResult result; int32_t node=*pos; U_ASSERT(node>=kMinValueLead); if(node&kValueIsFinal) { // Leave the final value for getValue() to read. result=USTRINGTRIE_FINAL_VALUE; } else { // Use the non-final value as the jump delta. ++pos; // int32_t delta=readValue(pos, node>>1); node>>=1; int32_t delta; if(node<kMinTwoByteValueLead) { delta=node-kMinOneByteValueLead; } else if(node<kMinThreeByteValueLead) { delta=((node-kMinTwoByteValueLead)<<8)|*pos++; } else if(node<kFourByteValueLead) { delta=((node-kMinThreeByteValueLead)<<16)|(pos[0]<<8)|pos[1]; pos+=2; } else if(node==kFourByteValueLead) { delta=(pos[0]<<16)|(pos[1]<<8)|pos[2]; pos+=3; } else { delta=(pos[0]<<24)|(pos[1]<<16)|(pos[2]<<8)|pos[3]; pos+=4; } // end readValue() pos+=delta; node=*pos; result= node>=kMinValueLead ? valueResult(node) : USTRINGTRIE_NO_VALUE; } pos_=pos; return result; } --length; pos=skipValue(pos); } while(length>1); if(inByte==*pos++) { pos_=pos; int32_t node=*pos; return node>=kMinValueLead ? valueResult(node) : USTRINGTRIE_NO_VALUE; } else { stop(); return USTRINGTRIE_NO_MATCH; } } UStringTrieResult BytesTrie::nextImpl(const uint8_t *pos, int32_t inByte) { for(;;) { int32_t node=*pos++; if(node<kMinLinearMatch) { return branchNext(pos, node, inByte); } else if(node<kMinValueLead) { // Match the first of length+1 bytes. int32_t length=node-kMinLinearMatch; // Actual match length minus 1. if(inByte==*pos++) { remainingMatchLength_=--length; pos_=pos; return (length<0 && (node=*pos)>=kMinValueLead) ? valueResult(node) : USTRINGTRIE_NO_VALUE; } else { // No match. break; } } else if(node&kValueIsFinal) { // No further matching bytes. break; } else { // Skip intermediate value. pos=skipValue(pos, node); // The next node must not also be a value node. U_ASSERT(*pos<kMinValueLead); } } stop(); return USTRINGTRIE_NO_MATCH; } UStringTrieResult BytesTrie::next(int32_t inByte) { const uint8_t *pos=pos_; if(pos==NULL) { return USTRINGTRIE_NO_MATCH; } if(inByte<0) { inByte+=0x100; } int32_t length=remainingMatchLength_; // Actual remaining match length minus 1. if(length>=0) { // Remaining part of a linear-match node. if(inByte==*pos++) { remainingMatchLength_=--length; pos_=pos; int32_t node; return (length<0 && (node=*pos)>=kMinValueLead) ? valueResult(node) : USTRINGTRIE_NO_VALUE; } else { stop(); return USTRINGTRIE_NO_MATCH; } } return nextImpl(pos, inByte); } UStringTrieResult BytesTrie::next(const char *s, int32_t sLength) { if(sLength<0 ? *s==0 : sLength==0) { // Empty input. return current(); } const uint8_t *pos=pos_; if(pos==NULL) { return USTRINGTRIE_NO_MATCH; } int32_t length=remainingMatchLength_; // Actual remaining match length minus 1. for(;;) { // Fetch the next input byte, if there is one. // Continue a linear-match node without rechecking sLength<0. int32_t inByte; if(sLength<0) { for(;;) { if((inByte=*s++)==0) { remainingMatchLength_=length; pos_=pos; int32_t node; return (length<0 && (node=*pos)>=kMinValueLead) ? valueResult(node) : USTRINGTRIE_NO_VALUE; } if(length<0) { remainingMatchLength_=length; break; } if(inByte!=*pos) { stop(); return USTRINGTRIE_NO_MATCH; } ++pos; --length; } } else { for(;;) { if(sLength==0) { remainingMatchLength_=length; pos_=pos; int32_t node; return (length<0 && (node=*pos)>=kMinValueLead) ? valueResult(node) : USTRINGTRIE_NO_VALUE; } inByte=*s++; --sLength; if(length<0) { remainingMatchLength_=length; break; } if(inByte!=*pos) { stop(); return USTRINGTRIE_NO_MATCH; } ++pos; --length; } } for(;;) { int32_t node=*pos++; if(node<kMinLinearMatch) { UStringTrieResult result=branchNext(pos, node, inByte); if(result==USTRINGTRIE_NO_MATCH) { return USTRINGTRIE_NO_MATCH; } // Fetch the next input byte, if there is one. if(sLength<0) { if((inByte=*s++)==0) { return result; } } else { if(sLength==0) { return result; } inByte=*s++; --sLength; } if(result==USTRINGTRIE_FINAL_VALUE) { // No further matching bytes. stop(); return USTRINGTRIE_NO_MATCH; } pos=pos_; // branchNext() advanced pos and wrote it to pos_ . } else if(node<kMinValueLead) { // Match length+1 bytes. length=node-kMinLinearMatch; // Actual match length minus 1. if(inByte!=*pos) { stop(); return USTRINGTRIE_NO_MATCH; } ++pos; --length; break; } else if(node&kValueIsFinal) { // No further matching bytes. stop(); return USTRINGTRIE_NO_MATCH; } else { // Skip intermediate value. pos=skipValue(pos, node); // The next node must not also be a value node. U_ASSERT(*pos<kMinValueLead); } } } } const uint8_t * BytesTrie::findUniqueValueFromBranch(const uint8_t *pos, int32_t length, UBool haveUniqueValue, int32_t &uniqueValue) { while(length>kMaxBranchLinearSubNodeLength) { ++pos; // ignore the comparison byte if(NULL==findUniqueValueFromBranch(jumpByDelta(pos), length>>1, haveUniqueValue, uniqueValue)) { return NULL; } length=length-(length>>1); pos=skipDelta(pos); } do { ++pos; // ignore a comparison byte // handle its value int32_t node=*pos++; UBool isFinal=(UBool)(node&kValueIsFinal); int32_t value=readValue(pos, node>>1); pos=skipValue(pos, node); if(isFinal) { if(haveUniqueValue) { if(value!=uniqueValue) { return NULL; } } else { uniqueValue=value; haveUniqueValue=TRUE; } } else { if(!findUniqueValue(pos+value, haveUniqueValue, uniqueValue)) { return NULL; } haveUniqueValue=TRUE; } } while(--length>1); return pos+1; // ignore the last comparison byte } UBool BytesTrie::findUniqueValue(const uint8_t *pos, UBool haveUniqueValue, int32_t &uniqueValue) { for(;;) { int32_t node=*pos++; if(node<kMinLinearMatch) { if(node==0) { node=*pos++; } pos=findUniqueValueFromBranch(pos, node+1, haveUniqueValue, uniqueValue); if(pos==NULL) { return FALSE; } haveUniqueValue=TRUE; } else if(node<kMinValueLead) { // linear-match node pos+=node-kMinLinearMatch+1; // Ignore the match bytes. } else { UBool isFinal=(UBool)(node&kValueIsFinal); int32_t value=readValue(pos, node>>1); if(haveUniqueValue) { if(value!=uniqueValue) { return FALSE; } } else { uniqueValue=value; haveUniqueValue=TRUE; } if(isFinal) { return TRUE; } pos=skipValue(pos, node); } } } int32_t BytesTrie::getNextBytes(ByteSink &out) const { const uint8_t *pos=pos_; if(pos==NULL) { return 0; } if(remainingMatchLength_>=0) { append(out, *pos); // Next byte of a pending linear-match node. return 1; } int32_t node=*pos++; if(node>=kMinValueLead) { if(node&kValueIsFinal) { return 0; } else { pos=skipValue(pos, node); node=*pos++; U_ASSERT(node<kMinValueLead); } } if(node<kMinLinearMatch) { if(node==0) { node=*pos++; } getNextBranchBytes(pos, ++node, out); return node; } else { // First byte of the linear-match node. append(out, *pos); return 1; } } void BytesTrie::getNextBranchBytes(const uint8_t *pos, int32_t length, ByteSink &out) { while(length>kMaxBranchLinearSubNodeLength) { ++pos; // ignore the comparison byte getNextBranchBytes(jumpByDelta(pos), length>>1, out); length=length-(length>>1); pos=skipDelta(pos); } do { append(out, *pos++); pos=skipValue(pos); } while(--length>1); append(out, *pos); } void BytesTrie::append(ByteSink &out, int c) { char ch=(char)c; out.Append(&ch, 1); } U_NAMESPACE_END